Genetic Control of Seed Longevity in Soybeans 1

Soybean [ Glycine max (L.) Merr.] seeds have a short storage life, especially in humid, tropical environments. However, a few varieties have been identified recently that have superior seed longevity. The purpose of this study was to determine if seed longevity is under maternal plant influence as is the case with many seed characteristics. Four reciprocal crosses were made between genotypes with good and poor seed longevity. A modified accelerated ageing test, followed by evaluations of seedling emergence from soil, was used to predict seed longevity of F 1 seeds for three of the four crosses; for one cross the test was repeated. Differences between reciprocal crosses were significant for all four tests. A hot water stress test was also used to predict seed longevity of reciprocal F 1 seeds for two crosses; two tests were run for each cross. The difference between reciprocal F 1 's was significant in one of the four tests. These results suggest that the maternal plant genome can influence the longevity of soybean seed. The fact that emergence of F 1 families was often different from their respective maternal parent and that pooled F 2 variances (seed from individual F 1 plants) were larger than pooled parental variances, suggests that the genotype of the seed also may influence it's longevity. F 2 seeds were examined for differences between reciprocals for one cross. The difference, though relatively small compared to reciprocal F 1 differences, was statistically significant suggesting that cytoplasmic gene action may also be involved in expression of seed longevity. Because of the large noncytoplasmimc aternal plant influence, it is suggested that selection for seed longevity be delayed at least until the F 3 generation.